The AMD XC7A200T - 2FBG484I is a high - performance FPGA from the Artix - 7 series. It features 215,360 logic cells and 740 DSP slices, enabling complex logic and signal processing tasks. With a 2.9 Tb/s I/O bandwidth and support for interfaces like PCIe, it ensures fast data transfer. Using 28 - nm HKMG tech, it cuts power by 50% compared to older models. Its wide - 40°C to 100°C operating range makes it suitable for diverse applications.
AMD XC7A200T-2FBG484I's Features
The XC7A200T - 2FBG484I is a powerful FPGA chip belonging to AMD's Artix - 7 series. Its features are as follows:
Rich Logic Resources: It is equipped with 215,360 logic cells, which can meet the requirements of implementing various complex logic functions and are suitable for applications with high - demand for logic resources, such as complex industrial control systems, military communication, and signal processing systems.
Considerable Memory Capacity: The chip offers 4,860 Kb of memory, which can store a substantial amount of data and program code, facilitating the efficient execution of complex tasks.
High - Performance DSP Slices: With 740 DSP slices, it has strong digital signal processing capabilities and can perform operations such as fast Fourier transforms and digital filtering, which is well - suited for applications requiring high - speed signal processing, including communication base stations, radar systems, and audio and video encoding and decoding.
Wide Operating Temperature Range: The operating temperature range is from - 40°C to 100°C, which enables it to work stably in various harsh environmental conditions and is suitable for use in industrial control, automotive electronics, aerospace, and other fields.
High - Speed I/O Interface: It provides 485 I/O pins, which support high - speed interfaces such as PCIe and Gigabit Ethernet, enabling fast data transmission and interaction with external devices, and facilitating its integration into complex systems.
Low Power Consumption: Manufactured using advanced 28 - nm HKMG technology, it consumes 50% less power than older - generation products, achieving a good balance between performance and power consumption, which helps reduce system operating costs and is beneficial for applications with strict power consumption requirements.
Flexible Packaging Forms: It is available in package types such as SBG484, FBG484, FBG676, and FFG1156, which can meet different design requirements and installation needs.
Advantages of the XC7A200T-2FBG484I FPGA
The XC7A200T-2FBG484I FPGA offers several advantages, including high performance, low power consumption, rich resources, and flexible interfaces. Here is a detailed analysis:
High Performance
Powerful Logic Processing Capability: It is equipped with 215,360 logic cells, which can handle complex logic operations, enabling the implementation of large - scale and complex digital systems, such as those required in high - performance computing and communication base stations.
Excellent Signal Processing Performance: With 740 DSP slices, it has strong digital signal processing capabilities, which can perform high - speed operations such as digital filtering, fast Fourier transform, and convolution, meeting the requirements of applications such as radar signal processing and audio - visual encoding and decoding.
High - Speed Data Transmission: It provides a 2.9 Tb/s I/O bandwidth and supports high - speed interfaces such as PCIe and Gigabit Ethernet, enabling fast data exchange with external devices, which is crucial for applications requiring high - speed data transmission, such as data centers and telecommunications networks.
Low Power Consumption: Manufactured using advanced 28 - nm HKMG technology, it consumes 50% less power than older - generation FPGAs, achieving a good balance between performance and power consumption. This makes it suitable for various applications, especially those with strict power consumption requirements, such as portable devices and some industrial control scenarios.
Rich Peripheral Resources
Large - Capacity Memory: The chip offers 4,860 Kb of memory, which can store a large amount of data and program code, facilitating the efficient execution of complex tasks. In addition, it has a 1 - GB DDR3 memory interface, which can expand the memory capacity as needed to meet the requirements of applications with high - memory - bandwidth requirements.
Diverse I/O Pins: It has 485 I/O pins, which provide rich interface resources and can be configured according to different application requirements to meet the connection needs of various external devices.
Flexible Configuration and Scalability
Programmable Logic: As an FPGA, it has programmable logic resources that allow users to configure and customize the chip according to their specific application requirements, providing strong flexibility. This is very advantageous in scenarios where the function needs to be continuously updated and optimized, such as in the research and development of new products.
Scalability: It can be used in projects of different scales, from small - scale embedded systems to large - scale industrial control systems and data centers. Its scalability allows users to adjust the system scale and performance according to actual needs, protecting the user's investment.Wide Operating Temperature Range: The operating temperature range is from - 40°C to 100°C, which enables it to work stably in various harsh environmental conditions, such as in industrial fields with high - temperature environments, automotive electronics that need to adapt to different climate conditions, and aerospace applications with strict temperature requirements.
AMD XC7A200T-2FBG484I's Applications
Consumer Electronics:
Smart TVs: It can handle complex video decoding and image processing tasks, such as optimizing video streaming, enhancing image quality, and improving audio - visual effects.
Gaming Consoles: It assists in real - time rendering of complex game scenes, processing of game logic, and improvement of gaming experience by handling high - speed data transfer and processing.
Home Automation: It is used to control smart home devices, manage sensor data, and realize functions such as remote control and intelligent scheduling of home appliances.
Industrial Automation:
Controllers: It is suitable for industrial controllers, which can handle a large number of input and output signals, perform precise timing control, and realize complex control algorithms to ensure the stable operation of industrial production lines.
Robots: It is used in the control system of robots to process sensor information, plan motion trajectories, and control the movement and operation of robots.
IoT Devices: It can process and analyze data from various sensors in IoT devices, perform data filtering and pre - processing, and transmit the processed data to the cloud or other devices for further processing.
Telecommunications and Networking:
Telecom Base Stations: It is used to handle signal processing, protocol conversion, and data transmission in telecom base stations, improve the efficiency and quality of signal transmission, and meet the requirements of high - speed data transmission in modern communication networks.
Data Centers: It plays a role in data centers by processing and forwarding a large amount of data, optimizing network traffic, and improving the data processing and transmission capabilities of data centers.
Automotive Electronics:
Driver Assistance Systems: It is used in collision - warning systems, lane - keeping assist systems, and adaptive cruise control systems to process data from sensors such as cameras and radars, and provide decision - making support for safe driving.
Infotainment Systems: It is responsible for processing audio and video data in car infotainment systems, realizing functions such as playing music, videos, and navigation, and improving the driving experience.
Healthcare:
Medical Imaging Equipment: It is used in MRI and CT scanners to process a large amount of image data in real - time, improve image resolution and clarity, and assist doctors in making accurate diagnoses.
Portable Medical Devices: It can perform data processing and analysis in portable medical devices, such as wearable health monitors and portable electrocardiogram machines, while meeting the low - power - consumption requirements of these devices.
AMD XC7A200T-2FBG484I's Attributes
| Product Category | FPGA - Field Programmable Gate Array | RoHS | Details |
| Series | XC7A200T | Number of Logic Elements | 215360 LE |
| Adaptive Logic Modules - ALMs | 33650 ALM | Embedded Memory | 12.83 Mbit |
| Number of I/Os | 285 I/O | Supply Voltage - Min | 950 mV |
| Supply Voltage - Max | 1.05 V | Minimum Operating Temperature | - 40 C |
| Maximum Operating Temperature | + 100 C | Data Rate | 6.6 Gb/s |
| Number of Transceivers | 4 Transceiver | Mounting Style | SMD/SMT |
| Package / Case | FCBGA-484 | Brand | AMD / Xilinx |
| Distributed RAM | 2888 kbit | Embedded Block RAM - EBR | 13140 kbit |
| Moisture Sensitive | Yes | Number of Logic Array Blocks - LABs | 16825 LAB |
| Operating Supply Voltage | 1 V | Product Type | FPGA - Field Programmable Gate Array |
| Factory Pack Quantity | 1 | Subcategory | Programmable Logic ICs |
| Tradename | Artix | Unit Weight | 0.857060 oz |
AMD XC7A200T-2FBG484I's Datasheet
AMD XC7A200T-2FBG484I's Pinouts
The specific pinout details of the AMD XC7A200T-2FBG484I can be found in the official datasheet provided by AMD. However, here is a general introduction to some of the important pins:
Power Pins:
VCCINT: This pin provides the internal core voltage and powers the internal logic of the FPGA.
VBATT: It is the battery backup voltage pin, which powers the device when the main supply is off.
VCCAUX: This pin supplies auxiliary voltage and powers the configuration circuits.
VCCO: It is used to power the output buffers and provides the output bank voltage.
Ground Pin:
GND: It is the reference ground for the chip, ensuring electrical stability and providing a common return path for currents.
AMD XC7A200T-2FBG484I's Category- FPGAs
Field - Programmable Gate Arrays (FPGAs) are versatile integrated circuits that have revolutionized digital electronics design. Unlike traditional fixed - function integrated circuits, FPGAs can be programmed and reprogrammed in the field, providing designers with the flexibility to implement a wide variety of digital logic functions. This programmability allows for rapid prototyping, quick design iterations, and customization to meet specific application requirements.
FPGAs consist of an array of logic cells, memory blocks, and programmable interconnections. The logic cells can be configured to perform basic logic operations, while the memory blocks are used for data storage. The programmable interconnections enable the logic cells and memory blocks to be connected in different ways, creating complex digital circuits. This architecture makes FPGAs suitable for a broad range of applications, including telecommunications, automotive electronics, industrial automation, and high - performance computing.
In telecommunications, FPGAs are used for tasks such as signal processing, protocol implementation, and data routing. In automotive electronics, they play a crucial role in advanced driver - assistance systems (ADAS) and in - vehicle infotainment systems. In industrial automation, FPGAs are utilized for precise control and real - time monitoring.
The AMD XC7A200T - 2FBG484I is a prime example of a high - performance FPGA from the Artix - 7 series. With 215,360 logic cells and 740 DSP slices, it offers significant processing capabilities for complex tasks. Its advanced 28 - nm technology ensures low power consumption while maintaining high performance. The wide range of interfaces and a large amount of on - chip memory make it an ideal choice for applications that demand both flexibility and high - speed data handling, further demonstrating the remarkable capabilities and adaptability of FPGAs in modern digital systems.
XC7A200T-2FBG484I's Manufacturer-AMD
AMD has made remarkable achievements in the field of FPGAs. Since the acquisition of Xilinx, its technical strength and market influence have been significantly enhanced. Over the past 40 years, the former Xilinx has delivered more than 3 billion FPGAs and adaptive SoCs, leading the market for 25 consecutive years. Now AMD has inherited this advantage and continues to innovate.
In terms of technological innovation, AMD has been constantly breaking through. For example, in 2011, the Virtex-7 2000T took the lead in adopting the CoWoS packaging, which promoted the development of 2.5D integration technology and laid the foundation for HPC systems. In 2019, the first Versal adaptive SoC was launched, introducing a dedicated AI engine and a programmable network on chip. In 2024, the second-generation Versal AI Edge series achieved single-chip end-to-end AI acceleration.
In terms of products, AMD has a rich and powerful product line. Ranging from the high-performance Versal Premium VP1902 to the cost-optimized Spartan UltraScale+ FPGA series, it can meet the needs of various fields such as communications, industry, automotive, and aerospace. For instance, in the automotive field, it has assisted Subaru's next-generation ADAS system; in the aerospace field, it has helped NASA's Mars rover achieve AI functions. Through continuous investment in research and development, AMD is leading the development trend in the FPGAs field with its innovative products.
XC7A200T-2FBG484I's Similar Parts
| Part Number | Manufacturer | Package / Case | Number of Pins | Number of Logic El. | Number of I/O | RAM Size | Supply Voltage | Terminal Pitch | Height Seated (Max) |
|---|---|---|---|---|---|---|---|---|---|
| XC7A200T-2FBG484I | Xilinx Inc. | 484-BBGA, FCBGA | 484 | 215360 | 285 | 1.6 MB | 1 V | 1 mm | 2.54 mm |
| XC7K70T-1FBG484C | Xilinx Inc. | 484-BBGA, FCBGA | 484 | 65600 | 285 | 607.5 kB | 1 V | 1 mm | 2.54 mm |
| XC7K70T-2FBG484C | Xilinx Inc. | 484-BBGA, FCBGA | 484 | 65600 | 285 | 607.5 kB | 1 V | 1 mm | 2.54 mm |
| XC7K70T-1FBG484I | Xilinx Inc. | 484-BBGA, FCBGA | 484 | 65600 | 285 | 607.5 kB | 1 V | 1 mm | 2.54 mm |
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